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Are all of the below declarations the same? If so, what is the standard way to declare a constant function?

const SparseMatrix transpose();

SparseMatrix transpose() const;

const SparseMatrix transpose() const;
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4  
Here's a hint: They're all different. –  chris Jan 15 '13 at 23:33
3  
But the first is more different, as the other two are ambiguous. –  Benjamin Lindley Jan 15 '13 at 23:35
    
There's also SparseMatrix const transpose() const and SparseMatrix const transpose() to consider. –  Mooing Duck Jan 15 '13 at 23:36
    
What semantics are you actually looking for? A small example might help. –  HonkyTonk Jan 15 '13 at 23:36
4  
The last two aren't functions. They're at best non-static member functions of some nebulous ambient class or union, but you're not telling us that. –  Kerrek SB Jan 15 '13 at 23:37
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3 Answers

up vote 7 down vote accepted

The const on the left of the function name means the object that is returned cannot be modified. The const on the right means the method is apart of a class and does not modify any of its data members. Unless or course any of its data members are declared with the mutable keyword, in which case modification thereof is permitted despite a const guard.

The placement of the const keyword is unimportant when the return type of the function is of non-pointer type:

 T const f(); // same as const T f();

However, note that the placement of the const keyword matters when using a pointer as the return type. For example:

const T* f();

This method returns a pointer to a const T. That is, what it points to is immutable. So you cannot do an assignment through a dereference of the returned pointer:

T* x = f();

*x = y; // error: assignment of read-only location '*(const T*)x'

When const is placed on the immediate right of the return type (that is a pointer), it means the pointer is const and cannot be changed.

T* const f();

int main()
{
    T* x const;

    x = f(); // error: assignment of read-only variable 'x'
}

Furthermore, if we have const on both sides of a pointer return type, and have const denoting "no modification of class members", then it's read as the following:

const T* const f() const;

A const member function named f that returns a const pointer to a const T

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Damn, beat me too it +1. –  Ben Jan 15 '13 at 23:36
    
It can change mutable members –  6502 Jan 15 '13 at 23:36
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1) return a const value 2) const function, no member changes inside it 3) 1)+2)

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The first one will return a SparseMatrix that is const and cant be changed.

The second one declares a function that returns a SparseMatrix and assures the function will not change any class variables (assuming it is a member function, otherwise it wouldnt make sense with this deceleration) except for mutable members.

The final one does both.

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Can you clarify that it's a member function, and that it won't modify (non-mutable) members of the instance of the class it is part of. –  Mooing Duck Jan 15 '13 at 23:37
    
@MooingDuck Are you saying to change my answer because it can be misread? –  Ben Jan 15 '13 at 23:39
    
I think so, you need to specify that the second and third ones only apply to non-static member functions. –  juanchopanza Jan 15 '13 at 23:41
    
@Ben: basically, yeah. The answer currently can be interpreted as that the function won't change any members of the SparseMatrix it's returning, which I admit would make no sense, but I would just prefer if the answer were totally clear. –  Mooing Duck Jan 15 '13 at 23:48
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